## ----eval=FALSE--------------------------------------------------------------- # install.packages('rintcal') ## ----eval=FALSE--------------------------------------------------------------- # update.packages() ## ----------------------------------------------------------------------------- library(rintcal) ## ----------------------------------------------------------------------------- ic20 <- ccurve() head(ic20) tail(ic20) ## ----eval=FALSE--------------------------------------------------------------- # ?ccurve ## ----------------------------------------------------------------------------- list.ccurves() ## ----fig.width=5, fig.asp=1--------------------------------------------------- libby <- read.table(file.path(system.file(package = 'rintcal'), "extdata/Arnold_Libby_1951.txt"), header=T, sep=",") plot(libby[,2], libby[,4], xlab="'cal' BP", ylab="C14 BP", pch=20) # plot the radiocarbon dates and their known calendar ages segments(libby[,2]-libby[,3], libby[,4], libby[,2]+libby[,3], libby[,4]) # calendar error bars (not all are quantified) segments(libby[,2], libby[,4]-libby[,5], libby[,2], libby[,4]+libby[,5]) # radiocarbon error bars abline(0, 1, lty=2) ic20 <- ccurve() # add the IntCal20 curve ic20.pol <- cbind(c(ic20[,1], rev(ic20[,1])), c(ic20[,2]-ic20[,3], rev(ic20[,2]+ic20[,3]))) polygon(ic20.pol, col="darkgreen", border=NA) ## ----------------------------------------------------------------------------- intcal <- intcal.read.data() IrishOaks <- intcal.data.frames(intcal, taxon="Quercus sp.", country="Ireland") length(IrishOaks) ## ----fig.width=4, fig.asp=.8-------------------------------------------------- Bristle <- intcal.data.frames(intcal, taxon="Pinus longaeva") Bristle_yearly <- Bristle[[20]]$data[,c(8,14,15)] plot(Bristle_yearly[,1], Bristle_yearly[,2], xlab="cal BP", ylab="C14 BP") segments(Bristle_yearly[,1], Bristle_yearly[,2]-Bristle_yearly[,3], Bristle_yearly[,1], Bristle_yearly[,2]+Bristle_yearly[,3]) ## ----fig.width=5, fig.asp=1--------------------------------------------------- intcal.data(0, 500) ## ----fig.width=5, fig.asp=1--------------------------------------------------- dat <- intcal.data(20e3, 25e3) unique(dat$set) dat <- intcal.data(20e3, 25e3, select.sets=c(109, 120), data.cols=c(1,2)) ## ----fig.width=5, fig.asp=1--------------------------------------------------- intcal.data(20e3, 25e3, realm="d") ## ----------------------------------------------------------------------------- mydir <- tempdir() # new.ccdir(mydir) mix.ccurves(0.4, cc1="IntCal20", cc2="Marine20", offset=cbind(100, 20), save=TRUE, cc.dir=mydir) ## ----fig.width=4, fig.asp=.8-------------------------------------------------- glued <- glue.ccurves("IntCal20", "NH1") plot(glued[1:650,1:2], xlab="cal BP", ylab="C-14 BP", pch=".")